/*******************************************************************************
  Copyright(c) 2011 Jasem Mutlaq. All rights reserved.

 This library is free software; you can redistribute it and/or
 modify it under the terms of the GNU Library General Public
 License version 2 as published by the Free Software Foundation.

 This library is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 Library General Public License for more details.

 You should have received a copy of the GNU Library General Public License
 along with this library; see the file COPYING.LIB.  If not, write to
 the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
 Boston, MA 02110-1301, USA.
*******************************************************************************/

#pragma once

#include "indibase.h"
#include "indiproperty.h"
#include "indiproperties.h"
#include "indiutility.h"

#include <string>
#include <vector>
#include <cstdint>

#include "indipropertytext.h"
#include "indipropertynumber.h"
#include "indipropertyswitch.h"
#include "indipropertylight.h"
#include "indipropertyblob.h"

// #define MAXRBUF 2048 // #PS: defined in indibase.h

/** @class INDI::BaseDevice
 *  @brief Class to provide basic INDI device functionality.
 *
 *  INDI::BaseDevice is the base device for all INDI devices and contains a list of all properties defined by the device either explicity or via a skeleton file.
 *  You don't need to subclass INDI::BaseDevice class directly, it is inheritied by INDI::DefaultDevice which takes care of building a standard INDI device. Moreover, INDI::BaseClient
 *  maintains a list of INDI::BaseDevice objects as they get defined from the INDI server, and those objects may be accessed to retrieve information on the object properties or message log.
 *
 *  @author Jasem Mutlaq
 */
namespace INDI
{

class LilXmlElement;
class BaseDevicePrivate;
class BaseDevice
{
        DECLARE_PRIVATE(BaseDevice)
    public:
        typedef INDI::Properties Properties;
        // typedef std::vector<INDI::Property*> Properties;

        /*! INDI error codes. */
        enum INDI_ERROR
        {
            INDI_DEVICE_NOT_FOUND    = -1, /*!< INDI Device was not found. */
            INDI_PROPERTY_INVALID    = -2, /*!< Property has an invalid syntax or attribute. */
            INDI_PROPERTY_DUPLICATED = -3, /*!< INDI Device was not found. */
            INDI_DISPATCH_ERROR      = -4  /*!< Dispatching command to driver failed. */
        };

        /*! Used for switch Enabled/Disabled or On/Off type properties */
        enum
        {
            INDI_ENABLED,
            INDI_DISABLED
        };

        /** @brief The DRIVER_INTERFACE enum defines the class of devices the driver implements. A driver may implement one or more interfaces. */
        enum DRIVER_INTERFACE
        {
            GENERAL_INTERFACE       = 0,         /**< Default interface for all INDI devices */
            TELESCOPE_INTERFACE     = (1 << 0),  /**< Telescope interface, must subclass INDI::Telescope */
            CCD_INTERFACE           = (1 << 1),  /**< CCD interface, must subclass INDI::CCD */
            GUIDER_INTERFACE        = (1 << 2),  /**< Guider interface, must subclass INDI::GuiderInterface */
            FOCUSER_INTERFACE       = (1 << 3),  /**< Focuser interface, must subclass INDI::FocuserInterface */
            FILTER_INTERFACE        = (1 << 4),  /**< Filter interface, must subclass INDI::FilterInterface */
            DOME_INTERFACE          = (1 << 5),  /**< Dome interface, must subclass INDI::Dome */
            GPS_INTERFACE           = (1 << 6),  /**< GPS interface, must subclass INDI::GPS */
            WEATHER_INTERFACE       = (1 << 7),  /**< Weather interface, must subclass INDI::Weather */
            AO_INTERFACE            = (1 << 8),  /**< Adaptive Optics Interface */
            DUSTCAP_INTERFACE       = (1 << 9),  /**< Dust Cap Interface */
            LIGHTBOX_INTERFACE      = (1 << 10), /**< Light Box Interface */
            DETECTOR_INTERFACE      = (1 << 11), /**< Detector interface, must subclass INDI::Detector */
            ROTATOR_INTERFACE       = (1 << 12), /**< Rotator interface, must subclass INDI::RotatorInterface */
            SPECTROGRAPH_INTERFACE  = (1 << 13), /**< Spectrograph interface */
            CORRELATOR_INTERFACE    = (1 << 14), /**< Correlators (interferometers) interface */
            AUX_INTERFACE           = (1 << 15), /**< Auxiliary interface */

            SENSOR_INTERFACE        = SPECTROGRAPH_INTERFACE | DETECTOR_INTERFACE | CORRELATOR_INTERFACE
        };
    public:
        BaseDevice();
        virtual ~BaseDevice();

    public: // property
        /** @brief Register the property to be able to observe and update.
         *  @param property any property from the INDI::PropertyXXX family.
         */
        void registerProperty(const INDI::Property &property);
        void registerProperty(const INDI::Property &property,
                              INDI_PROPERTY_TYPE type); // backward compatiblity (PentaxCCD, PkTriggerCordCCD)

        /** @brief Remove a property
         *  @param name name of property to be removed. Pass NULL to remove the whole device.
         *  @param errmsg buffer to store error message.
         *  @return 0 if successul, -1 otherwise.
         */
        int removeProperty(const char *name, char *errmsg);

        /** @brief Call the callback function if property is available.
         *  @param name of property.
         *  @param callback as an argument of the function you can use INDI::PropertyNumber, INDI::PropertySwitch etc.
         */
        void watchProperty(const char *name, const std::function<void (INDI::Property)> &callback);

        /** @brief Return a property and its type given its name.
         *  @param name of property to be found.
         *  @param type of property found.
         *  @return If property is found, it is returned. To be used you must use static_cast with given the type of property
         *  returned.
         */
        Property getProperty(const char *name, INDI_PROPERTY_TYPE type = INDI_UNKNOWN) const;

        /** @brief Return a list of all properties in the device. */
        Properties getProperties();
        const Properties getProperties() const;

    public:
        /** @return Return vector number property given its name */
        INDI::PropertyNumber getNumber(const char *name) const;
        /** @return Return vector text property given its name */
        INDI::PropertyText getText(const char *name) const;
        /** @return Return vector switch property given its name */
        INDI::PropertySwitch getSwitch(const char *name) const;
        /** @return Return vector light property given its name */
        INDI::PropertyLight getLight(const char *name) const;
        /** @return Return vector BLOB property given its name */
        INDI::PropertyBlob getBLOB(const char *name) const;

    public: // deprecated
        /** @return Return property state */
        IPState getPropertyState(const char *name) const;
        /** @return Return property permission */
        IPerm getPropertyPermission(const char *name) const;

        /** @brief Return a property and its type given its name.
         *  @param name of property to be found.
         *  @param type of property found.
         *  @return If property is found, the raw void * pointer to the IXXXVectorProperty is returned. To be used you must use static_cast with given the type of property
         *  returned. For example, INumberVectorProperty *num = static_cast<INumberVectorProperty> getRawProperty("FOO", INDI_NUMBER);
         *
         *  @note This is a low-level function and should not be called directly unless necessary. Use getXXX instead where XXX
         *  is the property type (Number, Text, Switch..etc).
         */
        void *getRawProperty(const char *name, INDI_PROPERTY_TYPE type = INDI_UNKNOWN) const;

    public:
        /** @brief Add message to the driver's message queue.
         *  @param msg Message to add.
         */
        void addMessage(const std::string &msg);
        void checkMessage(XMLEle *root);
        void doMessage(XMLEle *msg);

        /** @return Returns a specific message. */
        const std::string &messageQueue(size_t index) const;

        /** @return Returns last message message. */
        const std::string &lastMessage() const;

    public:
        /** @return True if the device exists */
        bool isValid() const;

        /** @return True if the device is connected (CONNECT=ON), False otherwise */
        bool isConnected() const;

        /** @brief indicates that the device is ready
         *  @note the BaseMediator::newDevice method will be called
         */
        void attach();

        /** @brief indicates that the device is being removed
         *  @note the BaseMediator::removeDevice method will be called
         */
        void detach();

        /** @brief Set the driver's mediator to receive notification of news devices and updated property values. */
        void setMediator(INDI::BaseMediator *mediator);

        /** @returns Get the meditator assigned to this driver */
        INDI::BaseMediator *getMediator() const;

        /** @brief Set the device name
         *  @param dev new device name
         */
        void setDeviceName(const char *dev);

        /** @return Returns the device name */
        const char *getDeviceName() const;

        /** @brief Check that the device name matches the argument. **/
        bool isDeviceNameMatch(const char *otherName) const;

        /** @brief Check that the device name matches the argument. **/
        bool isDeviceNameMatch(const std::string &otherName) const;

        /** @return driver name
         *  @note This can only be valid if DRIVER_INFO is defined by the driver.
         */
        const char *getDriverName() const;

        /** @return driver executable name
         *  @note This can only be valid if DRIVER_INFO is defined by the driver.
         */
        const char *getDriverExec() const;

        /** @return driver version
         *  @note This can only be valid if DRIVER_INFO is defined by the driver.
         */
        const char *getDriverVersion() const;

        /** @brief getDriverInterface returns ORed values of @ref INDI::BaseDevice::DRIVER_INTERFACE "DRIVER_INTERFACE". It presents the device classes supported by the driver.
         *  @return driver device interface descriptor.
         *  @note For example, to know if the driver supports CCD interface, check the retruned value:
         *  @code{.cpp}
         *  if (device.getDriverInterface() & CCD_INTERFACE)
         *       cout << "We received a camera!" << endl;
         *  @endcode
         */
        uint16_t getDriverInterface() const;

    public:
        /** @brief Build driver properties from a skeleton file.
         *  @param filename full path name of the file.
         *  @return true if successful, false otherwise.
         *
         *  A skeloton file defines the properties supported by this driver. It is a list of defXXX elements enclosed by @<INDIDriver>@
         *  and @</INDIDriver>@ opening and closing tags. After the properties are created, they can be rerieved, manipulated, and defined
         *  to other clients.
         *  @see An example skeleton file can be found under examples/tutorial_four_sk.xml
         */
        bool buildSkeleton(const char *filename);

        /** @brief Build a property given the supplied XML element (defXXX)
         *  @param root XML element to parse and build.
         *  @param errmsg buffer to store error message in parsing fails.
         *  @param isDynamic set to true if property is loaded from an XML file.
         *  @return 0 if parsing is successful, -1 otherwise and errmsg is set
         */
        int buildProp(const INDI::LilXmlElement &root, char *errmsg, bool isDynamic = false);

        /** @brief handle SetXXX commands from client */
        int setValue(const INDI::LilXmlElement &root, char *errmsg);

    public:
        operator BaseDevice*();
        BaseDevice* operator->();

        bool operator != (std::nullptr_t) const
        {
            return  isValid();
        }
        bool operator == (std::nullptr_t) const
        {
            return !isValid();
        }
        operator bool()                   const
        {
            return  isValid();
        }

    protected:
        BaseDevice *operator&()
        {
            return this;
        }

        friend class AbstractBaseClientPrivate;
        std::shared_ptr<BaseDevicePrivate> d_ptr;
        BaseDevice(BaseDevicePrivate &dd);
        BaseDevice(const std::shared_ptr<BaseDevicePrivate> &dd);
};

}
